Initial commit
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/target
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Load Diff
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[package]
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name = "cyborg"
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version = "0.1.0"
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edition = "2021"
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[dependencies]
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bytemuck = { version="1.7", features=["derive"] }
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glam = "0.20"
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pollster = "0.2"
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slab = "0.4"
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wgpu = "0.12"
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winit = "0.26"
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use glam::{Mat4, Quat, Vec2, Vec3};
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use std::time::Instant;
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use winit::event::{ElementState, VirtualKeyCode};
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pub trait Camera {
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fn get_vp(&self) -> [[f32; 4]; 4];
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}
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pub struct Flycam {
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// input
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is_up_pressed: bool,
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is_down_pressed: bool,
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is_forward_pressed: bool,
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is_backward_pressed: bool,
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is_left_pressed: bool,
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is_right_pressed: bool,
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mouse_dx: f32,
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mouse_dy: f32,
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// state
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last_update: Instant,
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pan: f32,
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tilt: f32,
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position: Vec3,
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// constants
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speed: f32,
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turn_speed: f32,
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aspect: f32,
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fovy: f32,
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znear: f32,
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zfar: f32,
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}
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impl Flycam {
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pub fn new(speed: f32, turn_speed: f32) -> Self {
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Self {
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is_up_pressed: false,
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is_down_pressed: false,
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is_forward_pressed: false,
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is_backward_pressed: false,
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is_left_pressed: false,
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is_right_pressed: false,
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mouse_dx: 0.0,
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mouse_dy: 0.0,
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last_update: Instant::now(),
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pan: 0.0,
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tilt: 0.0,
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position: Vec3::new(0.0, 0.5, 1.0),
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speed,
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turn_speed,
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aspect: 1.0, // TODO compute from size
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fovy: std::f32::consts::FRAC_PI_2,
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znear: 0.1,
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zfar: 100.0,
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}
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}
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}
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impl Flycam {
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pub fn process_keyboard(&mut self, key: VirtualKeyCode, state: ElementState) {
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let is_pressed = state == ElementState::Pressed;
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match key {
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VirtualKeyCode::Space => {
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self.is_up_pressed = is_pressed;
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}
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VirtualKeyCode::LShift => {
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self.is_down_pressed = is_pressed;
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}
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VirtualKeyCode::W | VirtualKeyCode::Up => {
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self.is_forward_pressed = is_pressed;
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}
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VirtualKeyCode::A | VirtualKeyCode::Left => {
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self.is_left_pressed = is_pressed;
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}
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VirtualKeyCode::S | VirtualKeyCode::Down => {
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self.is_backward_pressed = is_pressed;
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}
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VirtualKeyCode::D | VirtualKeyCode::Right => {
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self.is_right_pressed = is_pressed;
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}
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_ => {}
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}
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}
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pub fn process_mouse(&mut self, mouse_dx: f64, mouse_dy: f64) {
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self.mouse_dx += mouse_dx as f32;
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self.mouse_dy += mouse_dy as f32;
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}
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pub fn resize(&mut self, width: u32, height: u32) {
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self.aspect = (width as f32) / (height as f32);
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}
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pub fn update(&mut self) {
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let dt = self.last_update.elapsed();
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self.last_update = Instant::now();
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let dt = dt.as_micros() as f32 / 1_000_000.0;
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let t = self.turn_speed;
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self.pan += t * self.mouse_dx;
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self.tilt += t * self.mouse_dy;
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self.mouse_dx = 0.0;
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self.mouse_dy = 0.0;
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let tilt_limit = std::f32::consts::FRAC_PI_2;
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if self.tilt < -tilt_limit {
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self.tilt = -tilt_limit;
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} else if self.tilt > tilt_limit {
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self.tilt = tilt_limit;
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}
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let s = dt * self.speed;
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let axis = Self::key_axis;
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let truck = s * axis(self.is_backward_pressed, self.is_forward_pressed);
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let dolly = s * axis(self.is_right_pressed, self.is_left_pressed);
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let boom = s * axis(self.is_down_pressed, self.is_up_pressed);
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self.move_position(truck, dolly, boom);
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}
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fn key_axis(negative: bool, positive: bool) -> f32 {
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if negative {
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if positive {
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0.0
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} else {
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-1.0
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}
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} else {
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if positive {
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1.0
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} else {
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0.0
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}
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}
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}
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fn move_position(&mut self, truck: f32, dolly: f32, boom: f32) {
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// truck direction from straight down
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let h = Vec2::new(self.pan.sin(), -self.pan.cos());
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// truck direction from the side
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let v = Vec2::new(self.tilt.cos(), -self.tilt.sin());
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// composite to get forward direction
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let truck_to = Vec3::new(h.x * v.x, v.y, h.y * v.x);
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let dolly_to = Vec3::new(-self.pan.cos(), 0.0, -self.pan.sin());
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self.position += (truck_to * truck) + (dolly_to * dolly);
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self.position.y += boom;
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}
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}
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impl Camera for Flycam {
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fn get_vp(&self) -> [[f32; 4]; 4] {
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let orientation = Quat::from_euler(glam::EulerRot::XYZ, self.tilt, self.pan, 0.0);
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let rotation = Mat4::from_quat(orientation);
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let view = rotation * Mat4::from_translation(-self.position);
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let proj = Mat4::perspective_rh_gl(self.fovy, self.aspect, self.znear, self.zfar);
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let vp = proj * view;
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vp.to_cols_array_2d()
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}
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}
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use wgpu::util::DeviceExt;
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use winit::{
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event::*,
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event_loop::{ControlFlow, EventLoop},
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window::WindowBuilder,
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};
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mod camera;
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use camera::*;
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struct Renderer {
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pub device: wgpu::Device,
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pub mesh_pool: MeshPool,
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pub size: winit::dpi::PhysicalSize<u32>,
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surface: wgpu::Surface,
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queue: wgpu::Queue,
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config: wgpu::SurfaceConfiguration,
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}
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impl Renderer {
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pub async fn new(window: &winit::window::Window) -> Self {
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let size = window.inner_size();
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let instance = wgpu::Instance::new(wgpu::Backends::all());
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let surface = unsafe { instance.create_surface(window) };
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let adapter = instance
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.request_adapter(&wgpu::RequestAdapterOptions {
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power_preference: wgpu::PowerPreference::HighPerformance,
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compatible_surface: Some(&surface),
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force_fallback_adapter: false,
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})
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.await
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.unwrap();
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let (device, queue) = adapter
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.request_device(
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&wgpu::DeviceDescriptor {
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features: wgpu::Features::empty(),
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limits: wgpu::Limits::default(),
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label: None,
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},
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None,
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)
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.await
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.unwrap();
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let config = wgpu::SurfaceConfiguration {
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usage: wgpu::TextureUsages::RENDER_ATTACHMENT,
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format: surface.get_preferred_format(&adapter).unwrap(),
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width: size.width,
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height: size.height,
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present_mode: wgpu::PresentMode::Fifo,
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};
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surface.configure(&device, &config);
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let mesh_pool = MeshPool::default();
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Self {
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size,
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surface,
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device,
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queue,
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config,
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mesh_pool,
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}
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}
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pub fn resize(&mut self, new_size: winit::dpi::PhysicalSize<u32>) {
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if new_size.width > 0 && new_size.height > 0 {
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self.size = new_size;
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self.config.width = new_size.width;
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self.config.height = new_size.height;
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self.surface.configure(&self.device, &self.config);
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}
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}
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pub fn render(
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&mut self,
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camera: &impl Camera,
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meshes: &MeshCommands,
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) -> Result<(), wgpu::SurfaceError> {
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Ok(())
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}
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}
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struct MeshGroup {
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vertices: wgpu::Buffer,
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vertex_capacity: usize,
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indices: wgpu::Buffer,
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index_capacity: usize,
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}
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impl MeshGroup {
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pub fn new(device: &wgpu::Device, data: &MeshData) -> Self {
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let vertex_capacity = data.vertices.len();
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let vertices = device.create_buffer_init(&wgpu::util::BufferInitDescriptor {
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label: Some("Vertex Buffer"),
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contents: bytemuck::cast_slice(&data.vertices),
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usage: wgpu::BufferUsages::VERTEX,
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});
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let index_capacity = data.indices.len();
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let indices = device.create_buffer_init(&wgpu::util::BufferInitDescriptor {
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label: Some("Index Buffer"),
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contents: bytemuck::cast_slice(&data.indices),
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usage: wgpu::BufferUsages::VERTEX,
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});
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Self {
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vertex_capacity,
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vertices,
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index_capacity,
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indices,
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}
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}
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}
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#[derive(Default)]
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struct MeshPool {
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groups: slab::Slab<MeshGroup>,
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}
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impl MeshPool {
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pub fn allocate(&mut self, device: &wgpu::Device, data: &MeshData) -> MeshHandle {
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let group = MeshGroup::new(device, data);
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let group_id = self.groups.insert(group);
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let sub_id = 0;
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MeshHandle { group_id, sub_id }
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}
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}
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#[repr(C)]
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#[derive(Copy, Clone, bytemuck::Pod, bytemuck::Zeroable)]
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struct CameraUniform {
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vp: [[f32; 4]; 4],
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}
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#[repr(C)]
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#[derive(Copy, Clone, bytemuck::Pod, bytemuck::Zeroable)]
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struct Vertex {
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position: [f32; 3],
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}
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type Index = u32;
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struct MeshData {
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vertices: Vec<Vertex>,
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indices: Vec<Index>,
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}
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#[repr(C)]
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#[derive(Copy, Clone, Eq, Hash, PartialEq)]
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struct MeshHandle {
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group_id: usize,
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// unused for now, since each group contains only one mesh
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sub_id: usize,
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}
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#[derive(Copy, Clone, PartialEq)]
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struct MeshInstance {
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pub handle: MeshHandle,
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pub transform: glam::Mat4,
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}
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type MeshCommands = Vec<MeshInstance>;
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fn main() {
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let event_loop = EventLoop::new();
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let window = WindowBuilder::new().build(&event_loop).unwrap();
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let mut camera = Flycam::new(10.0, 0.002);
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let mut is_grabbed = false;
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let mut ren = pollster::block_on(Renderer::new(&window));
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let commands = MeshCommands::new();
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event_loop.run(move |event, _, control_flow| match event {
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Event::RedrawRequested(_) => match ren.render(&camera, &commands) {
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Ok(_) => {}
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Err(wgpu::SurfaceError::Lost) => ren.resize(ren.size),
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Err(wgpu::SurfaceError::OutOfMemory) => *control_flow = ControlFlow::Exit,
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Err(e) => println!("error: {:?}", e),
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},
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Event::MainEventsCleared => {
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camera.update();
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window.request_redraw();
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}
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Event::DeviceEvent { ref event, .. } => match event {
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DeviceEvent::MouseMotion { delta } => {
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if is_grabbed {
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camera.process_mouse(delta.0, delta.1);
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}
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}
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_ => {}
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},
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Event::WindowEvent {
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ref event,
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window_id,
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} if window_id == window.id() => match event {
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WindowEvent::KeyboardInput {
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input:
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KeyboardInput {
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virtual_keycode: Some(key),
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state,
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..
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},
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..
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} => {
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if *state == ElementState::Pressed && *key == VirtualKeyCode::Escape {
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if is_grabbed {
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window.set_cursor_grab(false).unwrap();
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window.set_cursor_visible(true);
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is_grabbed = false;
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}
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} else {
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camera.process_keyboard(*key, *state);
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}
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}
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WindowEvent::MouseInput {
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button: MouseButton::Left,
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state: ElementState::Pressed,
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..
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} => {
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if !is_grabbed {
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window.set_cursor_grab(true).unwrap();
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window.set_cursor_visible(false);
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is_grabbed = true;
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}
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}
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WindowEvent::CloseRequested => *control_flow = ControlFlow::Exit,
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WindowEvent::Resized(physical_size) => {
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ren.resize(*physical_size);
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camera.resize(physical_size.width, physical_size.height);
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}
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WindowEvent::ScaleFactorChanged { new_inner_size, .. } => {
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ren.resize(**new_inner_size);
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camera.resize(new_inner_size.width, new_inner_size.height);
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}
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_ => {}
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},
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_ => {}
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});
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}
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